KR100556859B1 - Method for controlling transmission power in a mobile phone - Google Patents

Abstract

The present invention relates to a transmission power control method of a mobile terminal, and more particularly, to calculate a temperature compensation value for compensating RF power loss according to a temperature change of a mobile terminal, and then to compensate for the maximum transmission characteristics of each mobile terminal after temperature compensation. The present invention relates to a transmission power control method of a mobile terminal for output. To this end, the present invention, in the mobile terminal for calculating the transmission level of the RF signal by the RF reception level, measuring the maximum transmission power automatic gain control value according to the temperature change of a specific mobile terminal and the measured maximum transmission power automatic gain control A first step of calculating an offset of the maximum transmission power automatic gain control value according to each temperature change of the value; Measuring a transmission power automatic gain control value of all mobile terminals to be produced, and extracting a maximum transmission power automatic gain control value and an actual measured temperature among the measured transmission power automatic gain control values; A third step of calculating a temperature compensation value for each temperature at room temperature based on the measured temperature and the extracted maximum transmission power automatic gain control value; And a fourth step of compensating the maximum transmission power automatic gain control value with the calculated temperature compensation value for each temperature.

Description

METHOOD FOR CONTROLLING TRANSMISSION POWER IN A MOBILE PHONE}

1 is a flowchart illustrating a transmission power control method of a mobile terminal of the present invention.

The present invention relates to a transmission power control method of a mobile terminal, and more particularly, to calculate a temperature compensation value for compensating RF power loss according to a temperature change of a mobile terminal, and then to compensate for the maximum transmission characteristics of each mobile terminal after temperature compensation. The present invention relates to a transmission power control method of a mobile terminal for output.

In general, if the transmission power of the mobile terminal received at the base station is too low, the bit error rate is too high to expect a good quality call. On the contrary, if the reception power at the base station is too high, the call quality of the mobile terminal is improved, but interference with other mobile terminals using the same channel is increased, so that the call quality is deteriorated unless the total subscribers are reduced.

Each mobile terminal estimates a path loss from the base station to the mobile terminal, and all base stations transmit pilot signals of the same frequency in the code division multiplexing scheme. All mobile terminals use the pilot signal for initial synchronization. Frequency and time reference for demodulation of the digital voice signal are also transmitted from each base station. The mobile terminal measures the sum of the pilot signal strength from the base station and the signal strength transmitted from all base stations received at the mobile terminal.

The signal strength received from the mobile terminal allows the mobile terminal to adjust its transmit power. If the received signal strength is high, the transmit power of the mobile terminal is low, which means that the mobile terminal is located close to the base station or the path loss is extremely small.

In the transmission power of the mobile terminal, the characteristics of the high output power amplifier provided in the time division multiplexing or code division multiplexing mobile communication terminal or base station are dependent on the aging of components, ambient temperature variation, applied voltage variation, and channel switching. As a result, a difference occurs between the desired power level and the actual transmitted power level.

Since the power level error of the high output power amplifier has a fatal effect on the neighboring terminal or the base station, it causes a decrease in capacity and poor call quality.

Therefore, the digital mobile communication standard strictly regulates the output power control of the transmitter as compared to the analog mobile communication method.

Therefore, the conventional transmission power control method of the mobile terminal detects the actual output of the power amplifier in order to minimize the above-described power level error, and compares this value with the signal level to be actually transmitted, according to the error and the temperature change of the mobile terminal. Compensate for transmit power and minimize the error.

However, the conventional method of controlling the transmission power of a mobile terminal does not find a transmission power compensation value according to the temperature change (usually -30 to 50 degrees) of all the mobile terminals, and calculates and tabulates the values obtained from a specific mobile terminal. By applying the value to all the mobile terminals, there is a problem that the temperature compensation is not well performed in the RF power control when the RF characteristic change due to the mobile terminal deviation is severe.

Therefore, the present invention was devised to solve the above problems, and the error of the maximum transmission power control signal due to the temperature change considering the RF deviation characteristic of each mobile terminal so as to accurately control the strength of the maximum output signal for each mobile terminal. It is an object of the present invention to provide a method for controlling a transmission power of a mobile terminal to calculate a temperature compensation value capable of compensating for the loss.

The present invention for achieving the above object, in the mobile terminal for calculating the transmission level of the RF signal by the RF reception level, measuring the maximum transmission power automatic gain control value according to the temperature change of the specific mobile terminal and measuring the measurement Calculating an offset of the maximum automatic transmission power gain control value according to each temperature change with respect to the room temperature of the maximum automatic transmission power gain control value; Measuring a transmission power automatic gain control value of all mobile terminals to be produced, and extracting a maximum transmission power automatic gain control value and an actual measured temperature among the measured transmission power automatic gain control values; A third step of calculating a temperature compensation value for each temperature at room temperature based on the measured temperature and the extracted maximum transmission power automatic gain control value; And a fourth step of compensating the maximum transmission power automatic gain control value with the calculated temperature compensation value for each temperature.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a flowchart illustrating a method of controlling a transmission power of a mobile terminal according to the present invention. In the mobile terminal for calculating a transmission level of an RF signal based on an RF reception level, a maximum transmission according to a temperature change of a specific mobile terminal is shown. A first step of measuring an automatic power gain control value and calculating an offset of the maximum automatic power gain control value according to each temperature change with respect to the room temperature of the measured maximum automatic power gain control value; Measuring a transmission power automatic gain control value of all mobile terminals to be produced, and extracting a maximum transmission power automatic gain control value and an actual measured temperature among the measured transmission power automatic gain control values; A third step of calculating a temperature compensation value for each temperature at room temperature based on the measured temperature and the extracted maximum transmission power automatic gain control value; Comprising a fourth step of compensating the maximum transmission power automatic gain control value with the temperature compensation value for each temperature calculated as described above, the operation and operation of the present invention configured as described above are as follows.

First, the transmission power characteristics of the mobile terminal are determined by the CPU detecting the level of the RF reception signal, calculating the transmission level of the RF signal, and then controlling the corresponding transmission power automatic gain control signal, thereby outputting the RF signal to the antenna. To pass.

To this end, first, the maximum transmission power automatic gain control value for each temperature of a specific mobile terminal (usually -30 degrees to 50 degrees) is measured. In this case, temperature is divided into eight steps.

Then, the offset of the maximum transmission power automatic gain control value (Vot (1-8)) for each temperature of the specific mobile terminal and the maximum transmission power automatic gain control value for each temperature relative to room temperature (Vo (1-8)) Calculate through Equation 1 below.

Here, Vo (1 ~ 8) is the offset of the maximum transmission power automatic gain control value relative to room temperature for each temperature, Vot (1 ~ 8) is the maximum transmission power automatic gain control value for each temperature of a specific mobile terminal, Vt4 is the maximum at room temperature The transmission power automatic gain control value is displayed.

After that, the automatic transmission power control value of each mobile terminal by temperature is measured and tabulated, and the maximum transmission power automatic gain control value (Vtt) and temperature of the measured temperature are extracted from the table, and the temperature compensation value at room temperature is used. Calculation is through Equation 2 below.

Where Vt4 is the maximum transmission power automatic gain control value at room temperature, K is the proportional constant, T4 is the room temperature, Tt is the actual temperature, and Vtt is the maximum transmission power automatic gain control value of the actual temperature in the table. Indicates.

Thus, using the equations (1) and (2), the temperature compensation value for each temperature of all the mobile terminals is calculated by the following equation (3).

Here, Vt (1-8) is the maximum transmission power automatic gain control value for each temperature of all mobile terminals, Vt4 is the maximum transmission power automatic gain control value at room temperature, Vo (1-8) is the offset of the maximum transmission power relative to room temperature Indicates.

Therefore, the transmission power control method of the mobile terminal of the present invention compensates the temperature of the transmission power with the maximum transmission power automatic gain control value to be controlled according to the temperature change of all mobile terminals.

As described in detail above, the present invention provides a temperature compensation value capable of compensating for an error in the maximum transmission power control signal due to a temperature change in consideration of the RF deviation characteristic of each mobile terminal so as to accurately control the strength of the maximum output signal for each mobile terminal. It is possible to compensate for the maximum transmission power for the RF characteristics that have different characteristics for each mobile terminal by calculating the.

Claims (4)

A mobile terminal for calculating a transmission level of an RF signal based on an RF reception level, A first measurement of measuring a maximum transmission power automatic gain control value according to a temperature change of a specific mobile terminal and calculating an offset of the maximum transmission power automatic gain control value according to each temperature change with respect to the room temperature of the measured maximum transmission power automatic gain control value Steps; Measuring a transmission power automatic gain control value of all mobile terminals to be produced, and extracting a maximum transmission power automatic gain control value and an actual measured temperature among the measured transmission power automatic gain control values; A third step of calculating a temperature compensation value for each temperature at room temperature based on the measured temperature and the extracted maximum transmission power automatic gain control value; And a fourth step of compensating the automatic maximum transmission power gain control value with the calculated temperature compensation value for each temperature. The method of claim 1, wherein the offset of the automatic maximum transmission power gain control value according to each temperature change is calculated by the following equation. (Equation 1)

Here, Vo (1 ~ 8) is the offset of the maximum transmission power automatic gain control value relative to room temperature for each temperature, Vot (1 ~ 8) is the maximum transmission power automatic gain control value for each specific mobile terminal temperature, Vt4 is at room temperature The maximum transmit power automatic gain control value. The method of claim 1, wherein the temperature compensation value at room temperature is calculated by Equation 2 below. (Equation 2)

Where Vt4 is the maximum transmission power automatic gain control value at room temperature, K is the proportional constant, T4 is the room temperature, Tt is the actual temperature, and Vtt is the maximum transmission power automatic gain control value of the actual temperature in the table. Indicates. The method of claim 1, wherein the temperature compensation value for each temperature is calculated by Equation 3 below. (Equation 3)

Here, Vt (1-8) is the maximum transmission power automatic gain control value for each temperature of all mobile terminals, Vt4 is the maximum transmission power automatic gain control value at room temperature, Vo (1-8) is the offset of the maximum transmission power relative to room temperature Indicates.

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